All forms of energy follow the law of conservation of energy, by which they can be neither
created nor destroyed. Light-to-heat conversion as a traditional yet constantly evolving …

The absorption of light by plasmonic nanostructures and their associated temperature
increase are exquisitely sensitive to the shape and composition of the structure and to the …

The in vivo temperature monitoring of a microenvironment is significant in biology and
nanomedicine research. Luminescent nanothermometry provides a noninvasive method of …

Temperature is a key parameter to regulate cell function, and biochemical reactions inside a
cell in turn affect the intracellular temperature. It's vitally necessary to measure cellular …

Nanothermometry is a challenging field that can open the door to intriguing questions
ranging from biology and medicine to material sciences. Gold nanorods are excellent …

Stimuli‐responsive designs with exogenous stimuli enable remote and reversible control of
DNA nanostructures, which break many limitations of static nanostructures and inspired …

Precise sensing of intracellular temperature can provide plenty of information on disease-
related cell states and promote the development of a diagnostic method. Fluorescence …

DNA switches are ideally suited for numerous nanotechnological applications, and
increasing efforts are being directed toward their engineering. In this review, we discuss how …

The synthesis, characterization, and temperature-responsive properties of two fluorescent
organoplatinum (II) metallacycles are reported. Metallacycles M1 and M2 were prepared via …

Controlling the structure and activity of nucleic acids dramatically expands their potential for
application in therapeutics, biosensing, nanotechnology, and biocomputing. Several …